An electronic device includes electronic components, such as “flip chip” semiconductor devices, chip resistors, capacitors and other electronic components, mounted to and interconnected to a substrate by a flexible adhesive membrane having contact pads that have substantially the same pattern as those of the corresponding electronic components. The flexible adhesive membrane includes an insulating matrix and conductive pads therein that employ thermoplastic and thermosetting adhesives, and combinations thereof, each having a low modulus of elasticity. The flexible conductive adhesive employed for the conductive pads or features preferably has a lower flow index than does the flexible adhesive employed for the insulating matrix, whereby the conductive features penetrate the insulating adhesive during bonding to assure reliable interconnection. Preferably, the higher flow index of the insulating adhesive facilitates it forming a fillet around the flip chip devices to provide a moisture barrier and additional mechanical strength to an assembled electronic device. Adhesives having flexibility and a low glass transition temperature are employed in the membrane to reduce internal stresses and enhance long-term bonding and contact reliability. The combination of adhesives may be selected to accommodate specific bonding and operating conditions. Such flexible membranes may also be employed for probing and testing semiconductor wafers and individual dies, as well as other small or delicate electronic components. Preferably, the contact pad features on the side of the flexible membrane that is to be probed have a sufficient area and pitch to facilitate probing, which area and pitch may be substantially greater than that on the side of the flexible membrane that is attached to the electronic component being tested.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A flexible adhesive membrane comprising: a pattern of a plurality of electrically conductive features formed of a flexible electrically conductive adhesive having a predetermined flowability and adapted for adhesively attaching to electrical contacts; and an electrically insulating matrix surrounding and adhering to said plurality of electrically conductive features, said electrically insulating matrix being a membrane formed of a flexible electrically insulating adhesive having a greater flowability than that of said flexible electrically conductive adhesive.
2. The flexible adhesive membrane of claim 1 wherein said flexible electrically conductive adhesive has a first melt flow temperature and said flexible electrically insulating adhesive has a second melt flow temperature that is lower than the first melt flow temperature.
3. The flexible adhesive membrane of claim 1 wherein said flexible electrically conductive adhesive and said flexible electrically insulating adhesive each have a respective melt flow temperature, and wherein at a given temperature higher than said respective melt flow temperatures, said flexible electrically conductive adhesive has a higher viscosity than does said flexible electrically insulating adhesive.
4. The flexible adhesive membrane of claim 1 wherein said flexible electrically conductive adhesive and said flexible electrically insulating adhesive each have a respective melt flow temperature that is greater than about 80 C.
5. The flexible adhesive membrane of claim 1 wherein said flexible electrically conductive adhesive and said flexible electrically insulating adhesive are both selected from the group consisting of thermoplastic adhesives and thermosetting adhesives.
6. The flexible adhesive membrane of claim 1 wherein said flexible electrically conductive adhesive includes a thermoplastic adhesive and said flexible electrically insulating adhesive includes a thermosetting adhesive.
7. The flexible adhesive membrane of claim 1 wherein said electrically conductive features and said flexible insulating matrix have substantially the same thickness.
8. The flexible adhesive membrane of claim 1 wherein said flexible electrically conductive adhesive and said flexible electrically insulating adhesive each have a respective modulus of elasticity of less than about 100,000 psi.
9. The flexible adhesive membrane of claim 1 wherein said flexible electrically conductive adhesive and said flexible electrically insulating adhesive each have a respective glass transition temperature that is less than about 25 C.
10. The flexible adhesive membrane of claim 1 in combination with an electrical component having a pattern of contacts thereon corresponding to the pattern of said plurality of electrically conductive features wherein respective ones of said plurality of electrically conductive features contact corresponding ones of said contacts.
11. The flexible adhesive membrane of claim 10 wherein said electrical component is selected from the group consisting of a semiconductor wafer, a semiconductor die, a semiconductor device, a panel of substrates, a substrate, a panel of printed wiring circuit boards, a printed wiring circuit board, a chip capacitor, a chip resistor, a chip inductor, and combinations thereof.
12. The flexible adhesive membrane of claim 10 wherein said electrically insulating matrix includes a plurality of relational alignment holes located in known predetermined spatial relationship to said pattern of a plurality of electrically conductive features, and wherein said electrical component includes a plurality of relational alignment holes located in said same known predetermined spatial relationship to said pattern of contacts thereon.
13. The combination of said flexible adhesive membrane and said electrical component of claim 10 further comprising a substrate proximate said flexible adhesive membrane, wherein said electrical component is attached to said substrate by adhesion of at least one of the flexible electrically conductive adhesive of said electrically conductive features of said flexible adhesive membrane and the flexible electrically insulating adhesive of said electrically insulating matrix of said flexible adhesive membrane.
14. The flexible adhesive membrane of claim 1 wherein said flexible electrically conductive adhesive includes electrically conductive particles having a high magnetic permeability.
15. The flexible adhesive membrane of claim 1 wherein said flexible electrically insulating adhesive includes electrically insulating particles having a high magnetic permeability.
16. A flexible adhesive membrane comprising: a pattern of a plurality of electrically conductive features formed of a flexible electrically conductive adhesive having a predetermined flowability and adapted for adhesively attaching to electrical contacts; and an electrically insulating matrix surrounding and adhering to said plurality of electrically conductive features, said electrically insulating matrix being a membrane formed of a flexible electrically insulating adhesive having a greater flowability than that of said flexible electrically conductive adhesive, wherein at least ones of said plurality of electrically conductive features include an enlarged area proximate one surface of said electrically insulating matrix, which enlarged area overlies and adheres to the one surface of said electrically insulating matrix.
17. A flexible adhesive membrane comprising: a pattern of a plurality of electrically conductive features formed of a flexible electrically conductive adhesive having a predetermined flowability and adapted for adhesively attaching to electrical contacts; and an electrically insulating matrix surrounding and adhering to said plurality of electrically conductive features, said electrically insulating matrix being a membrane formed of a flexible electrically insulating adhesive having a greater flowability than that of said flexible electrically conductive adhesive, wherein said electrically conductive features and said electrically insulating matrix are formed of a plurality of layers, and wherein said pattern of a plurality of electrically conductive features has a given size and pitch in a first of said plurality of layers proximate one surface of said electrically insulating matrix and has a size and pitch larger than said given size and pitch in a layer proximate an opposite surface thereof.
18. A flexible adhesive membrane comprising: a pattern of a plurality of electrically conductive features formed of a flexible electrically conductive adhesive having a predetermined flowability and adapted for adhesively attaching to electrical contacts; and an electrically insulating matrix surrounding and adhering to said plurality of electrically conductive features, said electrically insulating matrix being a membrane formed of a flexible electrically insulating adhesive having a greater flowability than that of said flexible electrically conductive adhesive, wherein part of said flexible electrically insulating adhesive covers at least some of said plurality of electrically conductive features at one surface of said flexible adhesive membrane.
19. An electronic device comprising: an electronic component having a pattern of electrical contacts on one surface thereof; a substrate having a pattern of electrical contacts on one surface thereof corresponding to the pattern of electrical contacts on said electronic component; wherein said electronic component is disposed with the one surface thereof opposite the one surface of said substrate; and a flexible adhesive membrane attaching said electronic component to said substrate comprising: a plurality of electrically conductive features in a pattern corresponding to the pattern of electrical contacts, said plurality of electrically conductive features adhesively attaching to and forming respective electrical connections between corresponding ones of the electrical contacts on said electronic component and the electrical contacts on said substrate, said plurality of electrically conductive features being formed of a flexible electrically conductive adhesive having a predetermined flowability; and an electrically insulating matrix surrounding and adhering to said plurality of electrically conductive features, said electrically insulating matrix being a membrane formed of a flexible electrically insulating adhesive having a greater flowability than that of said flexible electrically conductive adhesive.
20. The electronic device of claim 19 wherein said flexible electrically conductive adhesive and said flexible electrically insulating adhesive each have a respective modulus of elasticity of less than about 100,000 psi.
21. The electronic device of claim 19 wherein said flexible electrically conductive adhesive and said flexible electrically insulating adhesive each have a respective glass transition temperature that is less than about 25 C.
22. The electronic device of claim 19 wherein at least ones of said plurality of electrically conductive features include an enlarged area proximate one of said electronic component and said substrate, which enlarged area overlies and adheres to said electrically insulating matrix and to one of the electrical contacts on the one of said electronic component and said substrate.
23. The electronic device of claim 19 wherein said electrically conductive features and said electrically insulating matrix are formed of a plurality of layers, and wherein the pattern of said plurality of electrically conductive features has a given size and pitch in a first of said plurality of layers adjacent said electronic component and has a size and pitch larger than said given size and pitch in a layer adjacent said substrate.
24. The electronic device of claim 19 wherein said electronic component is selected from the group consisting of a semiconductor wafer, a semiconductor die, a semiconductor device, a panel of substrates, a substrate, a panel of printed wiring circuit boards, a printed wiring circuit board, a chip capacitor, a chip resistor, a chip inductor, and combinations thereof.
25. The electronic device of claim 19 wherein said electrically insulating matrix includes a plurality of relational alignment holes located in known predetermined spatial relationship to the pattern of said plurality of electrically conductive features, and wherein at least one of said electronic component and said substrate includes a plurality of relational alignment holes located in said same known predetermined spatial relationship to the pattern of electrical contacts thereon.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
January 7, 1999
June 17, 2003
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